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American Heart Association

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Final ID: We123

Cardiomyocyte Specific Sustained Atg7 Overexpression Activates Mitochondrial Autophagy in the Heart

Abstract Body: Introduction: Accumulating evidence indicates that autophagy-related protein 7 (Atg7) is essential in cellular autophagy. Our earlier studies showed that Atg7 is required to promote macro-autophagy in the heart. However, it is unknown if the activation of Atg7 has a role in the heart to regulate selective mitochondrial autophagy (mitophagy).
Objectives: We employed in vitro and in vivo approaches to delineate the molecular function and mechanisms of Atg7-mediated activation of mitophagy in the heart.
Methods and Results: Subcellular fractionation and quantum dot-labeled electron microscopy revealed Atg7’s localization on the mitochondrial fraction in the heart. Atg7 co-localization to Mitotracker-labeled mitochondria was confirmed using isolated heart mitochondria. To quantitate the mitophagy, we overexpressed Atg7 in cultured primary cardiomyocytes, treated with cyanide 3-chlorophenylhydrazone (CCCP) to induce mitophagy, and stained with pH-sensitive fluorescent mitophagy dye to enumerate mitophagy dots by microscopy. We found significantly increased mitophagy dots in Atg7 overexpressed cardiomyocytes than in β-gal expressing control. To assess the activation of mitophagy in vivo, we treated the cardiac-specific Atg7 overexpressing transgenic (αMHC-Atg7 Tg) and their littermate non-transgenic (Ntg) mice with CCCP. We found an increased accumulation of mature autophagolysosomal marker protein LC3-II in isolated mitochondria from Atg7 Tg mice hearts post-CCCP treatment. To assess the extent of mitochondrial lysosomal delivery in Atg7 overexpressing hearts, we crossed αMHC-Atg7 Tg mice with cardiac-specific Mito-Keima transgenic (Mt-Keima Tg) mice. Mt-Keima Tg mice bear mitochondria-targeted pH-dependent fluorescent lysosomal protease-resistance Keima protein, enabling the measurement of mitophagy activation in vivo. We observed increased Mt-Keima high red-to-green areas in αMHC-Atg7xMt-Keima Tg mice hearts compared to Mt-Keima mice.
Conclusions: Our biochemical and genetic approaches revealed that Atg7 localizes to the mitochondria, leading to the recruitment and initiation of mitophagy machinery. Our data further confirm that genetic activation of Atg7 leads to increased mitophagy activity in the heart.
  • Abdullah, Chowdhury S.  ( LSU Health Shreveport , Shreveport , Louisiana , United States )
  • Aishwarya, Richa  ( LSU Health Shreveport , Shreveport , Louisiana , United States )
  • Remex, Naznin Sultana  ( LSU Health Shreveport , Shreveport , Louisiana , United States )
  • Orr, Wayne  ( LSU Health Shreveport , Shreveport , Louisiana , United States )
  • Sadoshima, Junichi  ( RUTGERS NJMS , Newark , New Jersey , United States )
  • Bhuiyan, Md Shenuarin  ( LSU Health Shreveport , Shreveport , Louisiana , United States )
  • Author Disclosures:
    Chowdhury S. Abdullah: DO NOT have relevant financial relationships | Richa Aishwarya: DO NOT have relevant financial relationships | Naznin Sultana Remex: DO NOT have relevant financial relationships | Wayne Orr: DO NOT have relevant financial relationships | Junichi Sadoshima: DO NOT have relevant financial relationships | Md Shenuarin Bhuiyan: DO NOT have relevant financial relationships
Meeting Info:

Basic Cardiovascular Sciences

2024

Chicago, Illinois

Session Info:

Poster Session and Reception 3

Wednesday, 07/24/2024 , 04:30PM - 07:00PM

Poster Session and Reception

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